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Slope protection ecological sand bag structure, breakwater and construction method of breakwater

A breakwater and ecological technology, applied in the directions of breakwaters, botanical equipment and methods, jetties, etc., can solve problems such as breaking waves crossing the breakwater, and achieve the effects of reducing swells, facilitating construction, and restoring and optimizing the marine biological ecological environment.

Pending Publication Date: 2020-11-17
江苏绿之源生态建设有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] Aiming at the serious problem of breakwater overtaking, the present invention provides a slope protection ecological sand bag structure, breakwater and construction method thereof

Method used

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  • Slope protection ecological sand bag structure, breakwater and construction method of breakwater
  • Slope protection ecological sand bag structure, breakwater and construction method of breakwater
  • Slope protection ecological sand bag structure, breakwater and construction method of breakwater

Examples

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Effect test

Embodiment 1

[0037] combine figure 1 As shown, a slope protection ecological sand bag structure is composed of more than one ecological sand bag 1, and the ecological sand bag 1 is made of high polymer materials, and the ecological sand bag 1 is used to fill the nearby application area to obtain of solids. The bag body of the ecological sand bag 1 is stitched from the top layer and the bottom layer. The top layer of the ecological sand bag 1 is made of rough polypropylene fiber polymer material, and the bottom layer of the ecological sand bag 1 is made of spun polypropylene polymer material. material. The plurality of ecological sand bags 1 are stacked sequentially from bottom to top to form a walkway for strengthening the edge of the embankment or for people to walk on. The solid matter includes sea sand, gravel, sandy soil, pebbles, crushed stones, sludge or silt.

[0038] The production of the ecological sand bag 1 adopts the principle of "getting local materials and turning waste in...

Embodiment 2

[0040] Embodiment 2 is to carry out further optimization on the basis of embodiment 1, and specific implementation scheme is as follows:

[0041] combine Figure 1-Figure 4 , Figure 6 As shown, in this embodiment, a breakwater includes an ecological sand bag structure, and also includes an artificial reef wave dissipation structure 2 and a floating bed structure 3, and the artificial reef wave dissipation structure 2 is arranged below the floating bed structure 3, and the The ecological sand bag 1 is arranged below and on one side of the artificial reef wave-dissipating structure 2 . The artificial fish reef wave-dissipating structure 2 includes a longitudinal diaphragm 22, a transverse diaphragm 21 arranged horizontally between the longitudinal diaphragms 22, and an artificial fish reef 24 arranged on the transverse diaphragm 21, and the longitudinal diaphragm 22 is arranged up and down The artificial fish reefs are connected in series through plastic-metal composite pipes...

Embodiment 3

[0045] Embodiment 3 is to carry out further optimization on the basis of embodiment 1, and specific implementation scheme is as follows:

[0046] combine Figure 1-Figure 3 , Figure 5 , Figure 6 As shown, in this embodiment, a breakwater includes an ecological sand bag structure, and also includes an artificial reef wave dissipation structure 2 and a floating bed structure 3, and the artificial reef wave dissipation structure 2 is arranged below the floating bed structure 3, and the The ecological sand bag 1 is arranged below and on one side of the artificial reef wave-dissipating structure 2 . The artificial fish reef wave-dissipating structure 2 includes a longitudinal diaphragm 22, a transverse diaphragm 21 arranged horizontally between the longitudinal diaphragms 22, and an artificial fish reef 24 arranged on the transverse diaphragm 21, and the longitudinal diaphragm 22 is arranged up and down The artificial fish reefs are connected in series through plastic-metal co...

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Abstract

The invention discloses a slope protection ecological sand bag structure, a breakwater and a construction method of the breakwater, and relates to the field of near-shore slope engineering and landscape. The slope protection ecological sand bag structure, the breakwater and the construction method of the breakwater are used for solving the problem that the wave overtopping phenomenon of the breakwater is serious. The slope protection ecological sand bag structure is composed of one or more ecological sand bags, wherein the ecological sand bags are made of high polymer materials in a sewing mode, and the ecological sand bags are used for filling solid obtained in a nearby application area; and the breakwater comprises the slope protection ecological sand bag structure, an artificial fish reef wave absorbing structure and a floating bed structure, the artificial fish reef wave absorbing structure is arranged below the floating bed structure, and the ecological sand bags are arranged below and on one side of the artificial fish reef wave absorbing structure. The invention further provides the construction method of the breakwater. The construction method comprises the steps of manufacturing the artificial fish reef wave absorbing structure, manufacturing the floating bed structure, planting aquatic organisms and manufacturing the ecological sand bags. According to the slope protection ecological sand bag structure, the breakwater and the construction method of the breakwater, wave absorbing and wave preventing are effectively achieved, the influence of broken waves on a beachis limited, a good landscape effect is achieved, and the marine ecological environment is repaired and optimized.

Description

technical field [0001] The invention relates to near-shore slope engineering and a landscape collar, in particular to a slope protection ecological sand bag structure, a breakwater and a construction method thereof. Background technique [0002] The breakwater is a building built to block the impact of waves, protect the coastline, maintain a stable water surface to protect the seawall from bad weather, and to facilitate safe berthing and operation of ships. The breakwater can also play a role in preventing the siltation of the harbor basin and the erosion of the shoreline by waves. It is an important part of artificially sheltered coastal embankments. [0003] Due to the uncertainty of the wind and waves on the sea surface, there will often be unpredictable strong winds and waves. Although the existing breakwaters have a certain anti-wind and wave performance in the design process, they are still prone to overshooting and surging waves. Wave overshooting will have a seri...

Claims

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Application Information

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IPC IPC(8): E02B3/12E02B3/06A01G9/02A01K61/70
CPCA01G9/02A01K61/70E02B3/062E02B3/127Y02A10/11Y02A40/81
Inventor 丁锡峰孙伟
Owner 江苏绿之源生态建设有限公司
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